mirror of
https://github.com/autc04/Retro68.git
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279 lines
6.0 KiB
Go
279 lines
6.0 KiB
Go
// Copyright 2015 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// This file implements rat-to-string conversion functions.
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package big
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import (
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"errors"
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"fmt"
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"io"
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"strconv"
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"strings"
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)
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func ratTok(ch rune) bool {
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return strings.ContainsRune("+-/0123456789.eE", ch)
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}
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var ratZero Rat
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var _ fmt.Scanner = &ratZero // *Rat must implement fmt.Scanner
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// Scan is a support routine for fmt.Scanner. It accepts the formats
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// 'e', 'E', 'f', 'F', 'g', 'G', and 'v'. All formats are equivalent.
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func (z *Rat) Scan(s fmt.ScanState, ch rune) error {
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tok, err := s.Token(true, ratTok)
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if err != nil {
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return err
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}
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if !strings.ContainsRune("efgEFGv", ch) {
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return errors.New("Rat.Scan: invalid verb")
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}
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if _, ok := z.SetString(string(tok)); !ok {
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return errors.New("Rat.Scan: invalid syntax")
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}
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return nil
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}
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// SetString sets z to the value of s and returns z and a boolean indicating
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// success. s can be given as a fraction "a/b" or as a floating-point number
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// optionally followed by an exponent. The entire string (not just a prefix)
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// must be valid for success. If the operation failed, the value of z is un-
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// defined but the returned value is nil.
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func (z *Rat) SetString(s string) (*Rat, bool) {
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if len(s) == 0 {
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return nil, false
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}
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// len(s) > 0
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// parse fraction a/b, if any
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if sep := strings.Index(s, "/"); sep >= 0 {
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if _, ok := z.a.SetString(s[:sep], 0); !ok {
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return nil, false
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}
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r := strings.NewReader(s[sep+1:])
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var err error
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if z.b.abs, _, _, err = z.b.abs.scan(r, 0, false); err != nil {
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return nil, false
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}
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// entire string must have been consumed
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if _, err = r.ReadByte(); err != io.EOF {
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return nil, false
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}
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if len(z.b.abs) == 0 {
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return nil, false
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}
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return z.norm(), true
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}
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// parse floating-point number
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r := strings.NewReader(s)
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// sign
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neg, err := scanSign(r)
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if err != nil {
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return nil, false
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}
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// mantissa
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var ecorr int
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z.a.abs, _, ecorr, err = z.a.abs.scan(r, 10, true)
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if err != nil {
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return nil, false
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}
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// exponent
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var exp int64
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exp, _, err = scanExponent(r, false)
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if err != nil {
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return nil, false
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}
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// there should be no unread characters left
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if _, err = r.ReadByte(); err != io.EOF {
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return nil, false
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}
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// special-case 0 (see also issue #16176)
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if len(z.a.abs) == 0 {
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return z, true
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}
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// len(z.a.abs) > 0
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// correct exponent
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if ecorr < 0 {
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exp += int64(ecorr)
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}
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// compute exponent power
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expabs := exp
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if expabs < 0 {
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expabs = -expabs
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}
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powTen := nat(nil).expNN(natTen, nat(nil).setWord(Word(expabs)), nil)
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// complete fraction
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if exp < 0 {
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z.b.abs = powTen
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z.norm()
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} else {
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z.a.abs = z.a.abs.mul(z.a.abs, powTen)
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z.b.abs = z.b.abs[:0]
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}
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z.a.neg = neg && len(z.a.abs) > 0 // 0 has no sign
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return z, true
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}
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// scanExponent scans the longest possible prefix of r representing a decimal
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// ('e', 'E') or binary ('p') exponent, if any. It returns the exponent, the
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// exponent base (10 or 2), or a read or syntax error, if any.
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//
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// exponent = ( "E" | "e" | "p" ) [ sign ] digits .
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// sign = "+" | "-" .
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// digits = digit { digit } .
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// digit = "0" ... "9" .
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//
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// A binary exponent is only permitted if binExpOk is set.
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func scanExponent(r io.ByteScanner, binExpOk bool) (exp int64, base int, err error) {
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base = 10
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var ch byte
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if ch, err = r.ReadByte(); err != nil {
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if err == io.EOF {
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err = nil // no exponent; same as e0
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}
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return
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}
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switch ch {
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case 'e', 'E':
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// ok
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case 'p':
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if binExpOk {
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base = 2
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break // ok
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}
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fallthrough // binary exponent not permitted
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default:
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r.UnreadByte()
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return // no exponent; same as e0
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}
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var neg bool
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if neg, err = scanSign(r); err != nil {
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return
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}
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var digits []byte
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if neg {
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digits = append(digits, '-')
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}
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// no need to use nat.scan for exponent digits
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// since we only care about int64 values - the
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// from-scratch scan is easy enough and faster
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for i := 0; ; i++ {
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if ch, err = r.ReadByte(); err != nil {
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if err != io.EOF || i == 0 {
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return
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}
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err = nil
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break // i > 0
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}
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if ch < '0' || '9' < ch {
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if i == 0 {
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r.UnreadByte()
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err = fmt.Errorf("invalid exponent (missing digits)")
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return
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}
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break // i > 0
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}
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digits = append(digits, ch)
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}
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// i > 0 => we have at least one digit
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exp, err = strconv.ParseInt(string(digits), 10, 64)
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return
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}
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// String returns a string representation of x in the form "a/b" (even if b == 1).
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func (x *Rat) String() string {
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var buf []byte
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buf = x.a.Append(buf, 10)
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buf = append(buf, '/')
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if len(x.b.abs) != 0 {
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buf = x.b.Append(buf, 10)
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} else {
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buf = append(buf, '1')
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}
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return string(buf)
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}
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// RatString returns a string representation of x in the form "a/b" if b != 1,
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// and in the form "a" if b == 1.
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func (x *Rat) RatString() string {
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if x.IsInt() {
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return x.a.String()
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}
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return x.String()
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}
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// FloatString returns a string representation of x in decimal form with prec
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// digits of precision after the decimal point. The last digit is rounded to
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// nearest, with halves rounded away from zero.
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func (x *Rat) FloatString(prec int) string {
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var buf []byte
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if x.IsInt() {
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buf = x.a.Append(buf, 10)
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if prec > 0 {
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buf = append(buf, '.')
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for i := prec; i > 0; i-- {
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buf = append(buf, '0')
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}
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}
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return string(buf)
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}
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// x.b.abs != 0
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q, r := nat(nil).div(nat(nil), x.a.abs, x.b.abs)
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p := natOne
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if prec > 0 {
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p = nat(nil).expNN(natTen, nat(nil).setUint64(uint64(prec)), nil)
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}
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r = r.mul(r, p)
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r, r2 := r.div(nat(nil), r, x.b.abs)
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// see if we need to round up
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r2 = r2.add(r2, r2)
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if x.b.abs.cmp(r2) <= 0 {
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r = r.add(r, natOne)
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if r.cmp(p) >= 0 {
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q = nat(nil).add(q, natOne)
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r = nat(nil).sub(r, p)
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}
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}
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if x.a.neg {
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buf = append(buf, '-')
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}
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buf = append(buf, q.utoa(10)...) // itoa ignores sign if q == 0
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if prec > 0 {
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buf = append(buf, '.')
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rs := r.utoa(10)
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for i := prec - len(rs); i > 0; i-- {
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buf = append(buf, '0')
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}
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buf = append(buf, rs...)
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}
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return string(buf)
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}
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